Adjustable closure system for an article

ABSTRACT

An improved article of footwear of the invention includes an upper, an adjustable closure system affixed to the upper, the closure system having a guide member having a first groove portion and a second groove portion, a fastening member positioned opposite the guide member and having at least two tensioning members, and removable cable assembly connecting the guide member and the fastening member, wherein the cable assembly extends sequentially through the first groove portion of the guide member, a first tensioning member of the fastening member, the second groove portion of the guide member, and a second tensioning member of the fastening member, a bottom secured to the upper, a stabilizing member positioned between the upper and the bottom, wherein the stabilizing member has a base portion and at least one of a lateral support portion and a medial support portion extending upwardly from opposing sides of the base portion.

FIELD OF THE INVENTION

This invention relates to an article of footwear. More specifically, theinvention relates to a construction for an article of footwear designedto address stability control with a closure system used in combinationwith a midsole, outsole, and a variety of medial and lateral shankportions that provide flexibility or stability where pressure across awearer's foot is more or less desirable.

BACKGROUND OF THE INVENTION

Athletic shoes typically include a bottom portion for providing tractionand cushioning, and an upper for holding the foot of the wearer to thebottom portion. An athletic shoe may include a standard lace closure anda shank for added upper support. Bottoms are usually comprised of anoutsole and a midsole. The outsole is typically constructed from adurable material like rubber that resists wear and provides tractionwith a contact surface. The midsole, located between the upper and theoutsole, comprises a middle layer of an athletic shoe and is typicallyconstructed from a soft foam material such as EVA (ethylene vinylacetate) to lessen the impact forces caused during athletic activity.The foam midsole may include other cushioning elements, such as an airbladder and a shank to provide added stiffness and stability. An insolelayer is usually a thin padded member made from EVA or PU (polyurethane)that is inserted into and rests at the base of the upper for addedcushioned comfort.

In general, athletic shoes are designed with symmetrical medial andlateral sides of support. However, such designs do not take into accounteach athlete's individual physiology. For example, gait assessmentsclassify an athlete's footstrike into three categories: neutral,underpronation and overpronation. A neutral footstrike is considerednormal, whereas underpronators (supinators) tend to footstrike on alateral (outside) portion of their shoes, and overpronators tend to rolltheir footstrike on the medial (inside) portion of their shoes, therebycreating instability and inefficiency that may lead to early fatigue andinjury. Even athletes with neutral footstrikes require stabilityconsiderations. Accordingly, an article of footwear must meet a varietyof gait characteristics to meet performance goals and minimize injury.U.S. Pat. No. 6,108,943 discloses lateral stability along the entirelength of an upper which may be undesirable for an athlete whooverpronates.

U.S. Pat. No. 8,074,379 is a recent attempt to fasten a shoe around awearer's foot with a cable system and shank but it repeats the samefailures that conventional lace and eyelet systems have caused for manyyears. Binding, release, and mechanical failures continue to plaguemechanical type reel systems, especially when grit and grime areintroduced into a myriad of multiple layers of small toothed gears. Suchreel based closure systems also incorporate a shank, but are onlycapable of applying equal tension across the entire arch and instep.

U.S. Pat. No., 5,647,104 discloses a cable closure system comprising twocinching members, three spaced apart guide members and an anchoringmember. However, numerous spaced apart guides on a shoe upper do notallow for strategic multiple closure systems due to the limited area inwhich to locate them. A further limitation in the '104 patent involvesan increased amount of varying cable lengths due to adjustmentlimitations across a smaller anchoring area and the inability to adjustthe cable length across fixed guide members.

Additionally, U.S. Pat. No., 5,319,866 discloses a split midsole designwith a cookie arch support for pronators. However, such a design wouldbe unsuitable for a neutral footstrike or underpronator. Furthermore,midsoles, outsoles, and uppers in this asymmetrical configuration do notwork in concert to provide a more stable article of footwear. Instead,without the midsole support, an athlete is more likely to overpronate,thereby defeating the purpose of adding a cookie arch support betweenthe mid sole and the upper.

Orthotic inserts, otherwise known as “orthotics,” are stabilityenhancers that may include cushioning properties and rigid material.Orthotics are typically inserted into and rest at the base of the upperin direct contact with the wearer's feet. Orthotics come in a variety ofdensities. Soft orthotics are typically made from a foam material inattempt to match the contour of a respective foot. Although a softorthotic attempts to provide a cushioning effect, it provides minimalstability support. Cushioning is desirable in most athletic shoes, butthe primary benefit of an orthotic insert is its ability to control andstabilize the motions of a footstrike as it completes the gait cycle.From foot flex to absorb heel impact loads, to a more rigid toe-offphase, the primary goal of the orthotic device is to maintain propercontrol of the impact forces involved. Soft orthotics barely exertenough control over the gait cycle to meet the high demands of anotherwise rigid requirement. Over the course of their development, softorthotics have evolved to include stiffeners that provide more supportthan a foam based material. For example, some soft orthotics include arigid thermoplastic structure in strategic areas, but such systems arestill compromised due to the soft compressible foam material associatedwith soft orthotics.

Rigid orthotic inserts described in U.S. Pat. No. 6,976,322, are thinnerthan soft orthotic inserts, and offer increased control and stability.However, rigid orthotics are often too stiff against the foot whenplaced in an upper, causing undesirable discomfort and occupyingvaluable interior footbed space in an otherwise minimally constructedupper with superior strength to weight characteristics. Most athletesfind custom orthotics made by prescription cost prohibitive, and thebenefits they seek may be achieved by using a standardized orthotic inconjunction with a more intelligently constructed article of footwear.

Accordingly, there exists a need for an orthotic insert in the form of ashank having sufficient rigidity to properly control the motions of thefoot that can be manufactured efficiently and at low cost. Furthermore,in view of the above shortcomings, there exists a need for an orthoticthat has sufficient resilient flexibility so that it is able to providestability to the foot and shoe as the foot progresses through the gaitcycle. Still further, there exists a need for a thin soft insole layersince existing orthotic inserts are typically rigid, semi-rigid, orconstructed from a combination of soft foam and rigid materials that maycause crowding and raise the foot out of the heel pocket creatingdiscomfort or deterring optimum athletic performance. Additionally,there exists a need for an orthotic that does not encumber the interiorof an upper yet controls lateral and medial portions of the upper incombination with a closure system that can apply independent tensioningmeans across an arch and instep with a bottom that provides addedstability according to an athlete's individual physiology. And finally,there is a need for a closure system that provides a fastening cablewith more effective length options to achieve a more customized fit ofthe shoe.

SUMMARY OF THE INVENTION

In order to overcome the shortcomings and disadvantages of the prior artshoe constructions and to achieve at least the above-mentionedobjectives, an article of footwear is provided including an upper, anadjustable closure system affixed to the upper, the closure systemhaving a guide member with a first groove portion and a second grooveportion, a fastening member positioned opposite the guide member andhaving at least two tensioning members, and a cable assembly connectingthe guide member and the fastening member, wherein the cable assemblyextends sequentially through the first groove portion of the guidemember, a first tensioning member of the fastening member, the secondgroove portion of the guide member, and a second tensioning member ofthe fastening member, a bottom secured to the upper, a stabilizingmember positioned between said upper and said bottom, wherein saidstabilizing member comprises a base portion and at least one of alateral support portion and a medial support portion extending upwardlyfrom opposing sides of the base portion.

In some embodiments, the upper includes a first side panel and a secondside panel, the guide member is affixed to the first side panel and thefastening member is affixed to the second side panel. In certain ofthese embodiments, the first side panel and the second side panel havedifferent stiffness such as to provide a different degree of support toa wearer's foot.

In certain embodiments, the bottom has a heel portion, a forepartportion, and an arch portion positioned between the heel portion and theforepart portion, and the lateral and medial support portions of thestabilizing member are positioned in the arch portion of the bottom.

In some cases, at least one of the base portion, the lateral supportportion and the medial support portion of the stabilizing member isadapted to compress and relax as pressure is exerted on the article offootwear by a wearer's foot.

In certain embodiments, the stabilizing member includes the baseportion, the lateral support portion and the medial support portion.

In some embodiments, the closure system further includes a grippingmember secured to the cable assembly, wherein the gripping memberfacilitates adjustment of the closure system by a user.

In certain embodiments, the closure system further includes a pluralityof interchangeable cable assemblies having different lengths.

In some embodiments, the cable assembly is a removable closed-loopcable.

In certain embodiments, the cable assembly is snap-fit into the guidemember and the fastening member.

In some cases, the cable assembly is slidable through at least one ofthe guide member and the fastening member.

In certain embodiments, the cable assembly has a first end, a second endand a cable portion, wherein the first and second ends are secured tothe fastening member and the cable portion extends through the firstgroove portion of the guide member, one of the at least two tensioningmembers of the fastening member, and the second groove portion of theguide member.

In some cases, the article of footwear includes two or more closuresystems affixed to the upper.

In certain embodiments, the fastening member has a first tensioningmember, a second tensioning member, and a third tensioning member, and afirst loop of the cable assembly extends through one of the first,second and third tensioning members, and a second loop of the cableassembly extends through one of the first, second and third tensioningmembers.

An adjustable closure system is also provided, including a guide memberhaving a first groove portion and a second groove portion, a fasteningmember positioned opposite the guide member and having at least twotensioning members, and a cable assembly connecting said guide memberand said fastening member, wherein the cable assembly extendssequentially through the first groove portion of said guide member, afirst tensioning member of said fastening member, the second grooveportion of said guide member, and a second tensioning member of saidfastening member.

In some embodiments, the closure system further includes a grippingmember secured to the cable assembly, wherein the gripping memberfacilitates adjustment of the closure system by a user.

In certain embodiments, the closure system includes a plurality ofinterchangeable cable assemblies having different lengths.

In some cases, the cable assembly is a closed-loop cable.

In certain embodiments, the cable assembly has a first end, a second endand a cable portion, wherein the first and second ends are secured tothe fastening member and the cable portion extends through the firstgroove portion of the guide member, one of the at least two tensioningmembers of the fastening member, and the second groove portion of theguide member.

In some embodiments, the cable assembly is snap-fit into the guidemember and the fastening member.

In certain embodiments, the cable assembly is slidable through at leastone of the guide member and the fastening member.

An article of footwear, including an upper, a bottom secured to theupper and having an arch portion, and a stabilizing member positionedbetween the upper and the bottom, wherein the stabilizing memberincludes a base portion, and at least one of a lateral support portionand a medial support portion, wherein the lateral and medial supportportions are positioned in the arch portion of the bottom and extendupwardly from opposing sides of the base portion.

In some embodiments, the stabilizing member includes the base portion,the lateral support portion and the medial support portion. Inadditional embodiments, the stabilizing member includes the base portionand the lateral support portion. In further embodiments, the stabilizingmember includes the base portion and the medial support portion.

In certain embodiments, the base portion is adapted to compress andrelax as pressure is exerted thereon by a wearer's foot.

In some cases, at least one of the lateral support portion and themedial support portion is adapted to compress and relax as pressure isexerted on said stabilizing member by a wearer's foot.

In certain embodiments, the stabilizing member further comprises a rearsupport member positioned in a heel area of said bottom and extendingupwardly from the base portion.

In some embodiments, the lateral support portion and the medial supportportion of said stabilizing member have a reinforced perimeter.

In certain embodiments, the bottom further includes at least one of alateral support member and a medial support member positioned in thearch portion of the bottom, and the lateral and medial support membersof the bottom interact with the lateral and medial support portions ofthe stabilizing member to provide support for a wearer's foot.

Other objects of the invention and its particular features andadvantages will become more apparent from consideration of the followingdrawings and accompanying detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of the article of footwear in accordancewith the present invention.

FIG. 2 is a lateral side view of the article of footwear of FIG. 1.

FIG. 3 is a medial side view of the article of footwear of FIG. 1.

FIG. 4 is a top view of the article of footwear of FIG. 1.

FIG. 5 is a front view of the article of footwear of FIG. 1.

FIG. 6 is a rear view of the article of footwear of FIG. 1.

FIG. 7 is a bottom perspective view of the article of footwear of FIG.1.

FIG. 7a depicts a cross-section along line 7 a of the bottom archportion shown in FIG. 7.

FIG. 8 is a lateral side view of the bottom part of the article offootwear of FIG. 1.

FIG. 9 is a top perspective view of the bottom part of the article offootwear of FIG. 1.

FIG. 10 is a top perspective view of midsole and outsole of the articleof footwear of FIG. 1.

FIG. 11 is a top view of the midsole of the article of footwear of FIG.1, including a stability post for each of the three gait patterns.

FIG. 12 is a top view of a portion of the cable closure system of thearticle of footwear of FIG. 1.

FIG. 13 is a top view of the cable guide/anchor members of the articleof footwear of FIG. 1, showing the cable guide/anchor members attachedto a base plate.

FIG. 14 is a top view of the cable guide members of the article offootwear of FIG. 1, showing the cable guide members attached to a commonbase plate.

FIG. 15 is a top view of the cable guide members and anchor members ofthe article of footwear of FIG. 1, showing the cable guide members andanchor members attached to a common material.

FIG. 16 is a top view of the cable guide members and anchor members ofthe article of footwear of FIG. 1, showing the cable guide members andanchor members stitched to a common material.

FIG. 17 are top, front and isometric views of the cable guide members ofthe article of footwear of FIG. 1, shown in a multiple configuration.

FIG. 18 is an isometric view of the cable guide members and anchormembers of the article of footwear of FIG. 1, showing the cable guidemembers and anchor members as separate units.

FIG. 19 is a top view of the cable guide members of the article offootwear of FIG. 1, showing the cable guide members as separate units.

FIG. 20 is an isometric view of a stability member shank of the articleof footwear of FIG. 1, shown with a crosshatch pattern.

FIG. 21 is a front view of the stability member of the article offootwear of FIG. 1, shown with lateral control.

FIG. 22 is a front perspective view of the stability member of thearticle of footwear of FIG. 1, shown with medial control.

FIG. 23 is a bottom isometric view of the stability member of thearticle of footwear of FIG. 1.

FIG. 24 is a front view of the stability member of the article offootwear of FIG. 1, shown with lateral and medial controls.

FIG. 25 is a lateral side view of the stability member of the article offootwear of FIG. 1.

FIG. 26 is a top isometric view of the stability member of the articleof footwear of FIG. 1, shown with rib supports.

FIG. 27 is an isometric view of cables of the article of footwear ofFIG. 1, shown in multiple lengths.

DETAILED DESCRIPTION OF THE INVENTION

The basic components of one embodiment of an improved article offootwear of the present invention, generally designated by referencenumber 10, are shown in FIGS. 1-27. As used in the description, theterms “top,” “bottom,” “above,” “below,” “over,” “under,” “beneath,” “ontop,” “underneath,” “up,” “down,” “upper,” “lower,” “front,” “rear,”“back,” “forward” and “backward” refer to the objects referenced when inthe orientation illustrated in the drawings, which orientation is notnecessary for achieving the objects of the invention.

An improved article of footwear of the invention provides a stabilitysystem for superior fit, durability, support, and strength, and isadapted to apply balanced pressure around the arch, instep and ankle. Amodular cable closure system provides a mechanical advantage foradjustment to varied foot shapes. Cable fasteners are located atrespective areas along the upper to provide multiple tensioningstrengths for a bespoke fit. The article of footwear is designed withmedial and lateral portions to assist in increasing rearfoot stabilitywhile maintaining forefoot flexibility. The rearfoot stability elementsin combination with an adjustable closure system provide superiorsupport and balance control. Each intended stability control element isdesigned to provide flexibility or stability where a specific functionis needed. The medial and lateral stability portions of the article offootwear may be symmetrical or asymmetrical, and have features specificto differences affected by the closure system, materials, and supportingelements.

As will be evident from the description below, the shoe 10 is intendedto enhance performance associated with a variety of athletic activities.To accomplish this, the shoe 10 includes two halves, a lateral half 12and a medial half 14, as shown in FIG. 4, both of which may perform verydifferent actions. This medial-lateral division exists throughout theshoe 10. The shoe 10 includes an upper 20, shown in FIGS. 1-6, and abottom portion 60, shown in FIGS. 7-9. It is understood that the shoeconstruction of the present invention may be utilized not only for anathletic type shoe, but any other shoe type.

In some embodiments, the upper is a conventional tongue and throatstructure with a closure system of the present invention located oneither lateral or medial side of the shoe in specific combination with abottom stabilizing member, as described in more detail below. Inadditional embodiments, the upper is a sock construction with a gussetedtongue that stretches across the throat of the shoe. The gusset materialmay include any suitable material, such as, for example, mesh, stretchEVA and Lycra, to provide a varied fit structure to the wide array offoot shapes across the arch and instep.

The upper 20 is secured to the bottom portion 60 by any suitablemechanism, such as, for example, stitching, bonding, gluing, etc. Theupper 20 includes a lateral side 22 and a medial side 24, as illustratedin FIGS. 2-6, each designed for a specific function. The medial side 24and the lateral side 22 are designed to allow the wearer a high degreeof fit and stability options, and to provide as much support to thewearer's foot as desired.

The stability provided by the lateral side 22 is important because ithelps to hold and support the lateral side of the wearer's foot duringthe high amount of lateral movement associated with supination.Accordingly, during supination when the foot rolls to the outside of theshoe, it is more desirable that the lateral side 22 is less flexiblethan the medial side 24.

The stability provided by the medial side 24 is important because ithelps to hold and support the medial side of the wearer's foot duringthe high amount of lateral movement associated with pronation. Duringpronation when the foot rolls to the inside of the shoe, it is moredesirable that the medial side 24 is less flexible than the lateral side22. When the wearer requires both lateral and medial support, it is moredesirable to have both medial side 24 and lateral side 22 less flexibleto help hold and support the foot during heavy footstrikes.

The upper 20 includes a lateral side panel 28 and medial side panel 30that cover respective sides of the upper between the midsole 64 and thethroat region 34 of the upper 20, as shown in FIGS. 4-5. The lateralside panel 28 and the medial side panel 30 are preferably made from alightweight breathable synthetic material having minimal stretchcapability, and may be air mesh, sandwich mesh, polyester, nylon,polyurethane, embossed or injected or any other suitable material. Insome advantageous embodiments, the throat region 34 and collar region 38are made from a lightweight breathable synthetic material having ahigher stretch capability to accommodate a wide variety of foot shapes.Materials located in the throat region 34 and collar region 38 mayinclude Lycra, stretch mesh, stretch EVA, a combination thereof, or anyother suitable synthetic or natural material.

FIGS. 7-11 illustrate the bottom portion 60 of the footwear article thatincludes an outsole 62, a midsole 64, and a stabilizing member 100. Thebottom 60 further includes an arch section 66 located between a heelportion and a forepart portion of the bottom 60. The stabilizing member100 is secured between the bottom portion 60 and the upper 20. FIG. 7ashows a cross-section along line 7 a of the bottom arch. As seen in FIG.7 a, each upright support member 108 outwardly extends from an outermostlateral surface of the midsole 64 that is perpendicular to a planerepresenting a bottom surface of the outsole 62 and includes a bottomportion that curves beneath a bottom surface of the stabilizing member100 that is adjacent to the arch portion 66.

When the foot of a typical runner wearing the shoe of the presentinvention contacts the ground along the lateral heel area, the heel andforefoot portions of the bottom portion 60 pivot with respect to eachother such that they axially move with the foot along the foot's axis ofpronation. During the rapid actuation of the midsole 64 associated withrunning, the midsole arch portion 66 of the shoe freely moves axially,allowing the stabilizing member 100 to constrict around the arch 66 aspressure is exerted on the shoe in a downward direction as the shoecontacts the ground surface. Then, as the pressure is released when thefoot relaxes in its recovery phase, the stabilizing member 100 returnsto its resting state. However, the foot remains fully supported alongthe longitudinal length of the stabilizing member 100 in a neutralconfiguration, as described in more detail below. Moreover, because thestabilizing member 100 longitudinally supports the arch of the foot, theneed for heavy and durable sole material and a cost prohibitive custominsert orthotic in the arch area is obviated, thereby resulting in alight weight and more economical shoe.

The arch 66 is designed to allow the outsole 62 and the midsole 64 towork in union with the stabilizing member 100 and cable closure systemdescribed in more detail below. The arch 66 performs similarly to apre-tensioned tendon between the heel and forepart portions of thebottom 60. As the shoe 10 strikes the ground at the outsole 62, the footplaces a downward load on the stabilizing member 100, which distributesthe load across the arch 66. As the arch 66 compresses downward, itdissipates energy as it absorbs the impact, and then stores its inherentelastic energy in a stretched state and releases it back to the footduring the recovery phase of the stride. The arch 66 expands andcontracts in a tendon-like movement as the downward load is applied andremoved with each footstrike the wearer makes.

FIG. 8 illustrates the arch 66 in its resting state. As the bottom 60loads up with potential energy, the arch 66 moves downward and absorbsenergy in the midsole 64 and outsole 62 and a compressed arch 68 nowloaded with potential energy releases stored energy in the elasticproperties of the midsole, shank member and outsole material into anupward direction thereby assisting the wearer with a more efficientpower stride. The region of the arch 66 may include any suitablematerials that have high elastic properties.

FIG. 9 shows how the downward force applied by the wearer effects thestabilizing member 100. As the stabilizing member 100 loads, the uprightlateral stability member 102 and the upright medial stability member 104actuate inward and provide the wearer with added arch and instep supportthereby obviating the need for a costly insert orthotic.

FIG. 11 illustrates three embodiments of the midsole 64 that providestable adjustment for the three most common footstrike patterns. Asshown on left, the midsole 64 includes a lateral posting 70, whichprovides a lateral stability support. The middle figure shows themidsole 64 with a medial posting 72, which provides a medial stabilitysupport. The figure on the right illustrates the midsole with a neutralposting 74 which provides the wearer with a neutral stability support.The posts 70, 72 and 74 are preferably of greater hardness than otherareas of the midsole 64. It is understood that a midsole without theposts 70, 72, 74 may also be used in accordance with the presentinvention.

The stabilizing member 100 is seated within a recessed area 86 of themidsole 64, as shown in FIGS. 10 and 11. The midsole 64 includes a heelplug 80 to dampen heelstrike impact and a high rebound forepart plug 82to assist in faster toe off transition. The stabilizing member 100matches the contour of the upper 20 along its medial side of the arch 66and its lateral side of the arch 66, which extend from a portion of theheel to a portion of the ball of the foot. In certain advantageousembodiments, the fore portion of the stabilizing member 100 ispositioned such that it occupies a space behind the ball of a foot. Thestabilizing member 100 sweeps upwardly and adjacent to the medial andlateral sides of the foot so that it provides stability and support fora footstrike. As downward pressure is placed on the stabilizing member100, the support structure constricts inwardly towards its center lineto provide stable control along the axial pronation direction.

The stabilizing member 100 may be designed in a variety ofconfigurations, as further illustrated and discussed below in connectionwith FIGS. 20-26.

FIG. 20 shows a stabilizing member 100 with a lateral support portion102 and a medial support portion 104. This configuration, together withthe midsole 64 and the lateral and medial posts 74 shown in FIG. 11,provide for optimum neutral stability.

In the embodiment of the stabilizing member 100 shown in FIG. 21, thelateral support portion 102 is present, but the medial support portion104 is removed or minimized. This configuration of the stabilizingmember 100, together with the midsole 64 and the lateral post 70 shownin FIG. 11 provide for optimum underpronation (supination) stability,where the foot tends to roll outward.

In the embodiment of the stabilizing member 100 illustrated in FIG. 22,the medial support portion 104 is included, but the lateral supportportion 102 is removed or minimized. This configuration of thestabilizing member 100, together with the midsole 64 and the medial post72 shown in FIG. 11, provide for optimum overpronation stability, wherethe foot tends to roll inward.

The stabilizing member 100 shown in FIGS. 20-22 also includes a baseportion 160 an upright heel portion 106 to allow for a stable heelposition. The upright heel portion 106 is positioned on a rearmost upperedge of the stabilizing member 100, the rearmost upper edge shaped toform a curved apex that outwardly extends upward further than aremainder of the upright heel portion 106. The advantage of threedifferent configurations of stabilizing members 100 shown in FIGS. 20-22is that they allow for precise tailoring of the stabilizing member to acorresponding footstrike pattern determined by professional gaitanalysis.

It should be noted that, while FIG. 20 illustrates the stabilizingmember 100 with a cross hatch design on the base portion 160 to providefor lesser flexibility, other designs may be utilized in accordance withthe present invention, depending on a user's preference. For example, asshown in FIG. 26, the stabilizing member 100 may have a rib design 180to allow for greater flexibility. A lighter wearer may prefer a moreflexible shank, and a heavier wearer may prefer a less flexible shank.The stabilizing member 100 may be utilized in a variety of flexibilityconfigurations whether in cross hatch 160, rib 180, or any othersuitable design depending upon performance requirements.

FIG. 23 illustrates the bottom surface of the stabilizing member 100,which is designed to transfer forces between the bottom portion 60 andthe upper 20. The bottom surface of stabilizing member 100 matchesmating surfaces with the bottom 60 and the upper 20. As shown in FIGS.23-25, the stabilizing member 100 may also include perimeter reinforcedlateral and medial upright support members 108. In the arch portion 66of the midsole 64, each upright support member 108 outwardly extendsfrom and past an outermost lateral surface of the midsole 64perpendicular to a plane representing a bottom surface of the outsole62. Further, each upright support member 108 includes a bottom portionthat extends downwardly past a central portion of a bottom surface ofthe stabilizing member 100 that is adjacent to the arch portion 66 ofthe midsole 64 of the bottom member 60. This design removes excessweight from the stabilizing member and promotes an even inward motiontowards the member's centerline for maximum contraction as the weareractuates the bottom 60.

The footwear article 10 of the present invention further includes aclosure system 50, as illustrated in FIG. 12. The closure system 50includes a guide member 40, a fastening member 46 positioned oppositethe guide member, and a cable assembly 90 connecting the guide member 40and the fastening member 46. The guide member 40 has a first grooveportion 200 and a second groove portion 210. The first and second grooveportions 200, 210 each has a body extending in a direction away from thefirst side of the article of footwear, a head adjacent to the body, anda first curved extension adjacent to the body along a side of the guidemember, wherein the body, the head, and the curved extension form agroove cavity. The fastening member 46 has a first tensioning member220, a second tensioning member 230, and a third tensioning member 240.Each of the tensioning members 220, 230, 240 has a base, a curvedextension attached to the base extending in a direction away from thesecond side of the article of footwear. The base and curved extensionsform tensioning cavities. It is understood that other configurations ofthe fastening member 46 may be used, as described further below. Anysuitable materials may be used for the guide member and the fasteningmember, including molded TPU, Nylon ABS, Nylon PA6, Arkema BZM 1, BZM10, BZM 30, BASF TPU 85A, Pebax, EMS LX9012, or a combination thereof,or other reinforced injection molded materials, or other suitablethermoplastic materials.

In the embodiment illustrated in FIG. 12, the cable assembly 90 is aclosed-loop cable that is routed through the first and second grooveportions 200, 210 of the guide member 40 and the first and secondtensioning members 220, 230 of the fastening member 46 to tension theupper around the wearer's foot. The cable 90 may be formed of a varietyof suitable material with a low friction coefficient that may be ofdiffering length, strength, elasticity, and diameter, and may be freelysubstituted in order to meet the specific demands of the wearer's uniquephysiology. For example, the cable 90 may be formed of a low frictionpolymer having a relatively low elasticity and high tensile strength, oran elastic polymeric cable, or a multi-strand metallic cable, preferablywith a low friction polymer casing. In some advantageous embodiments,the cable may be comprised of a material from the group consisting ofnylon, braided metallic cord, natural cord, lace, polyurethane,polyester, co-extruded thermoplastics, elastic material, spun material,braided material, NBR, neoprene, silicone, FKM, TFE/P, HNBR, PTFE, acombination thereof or similar material.

In some embodiments, the cable 90 may be freely substituted with adifferent cable having a desired length or desired flexibility. In oneadvantageous embodiment, as shown in FIG. 27, the shoe 10 is sold with aplurality of cables 90 having different lengths and/or flexibilities.The guide member and the fastening member allow the cable assembly tosnap fit 96 into place for positive retention against accidentalrelease, as illustrated in FIGS. 17-18. Once the desired length andflexibility of the cable 90 is determined, a repeatable fit and functionfar outweighs the guessing that is involved when a conventional laceshoe is used to determine the proper amount of tension about the upper20.

As shown in FIG. 27, the cable assembly 90 may include a gripping member190, such as a pull tab, to assist the wearer in opening the closuresystem 50 to doff the shoe. The gripping member 190 may be made with anysuitable material, such as nylon or PE.

In additional advantageous embodiments, the cable assembly 90 has afirst end, a second end and a cable portion. The first and second endsare secured to the fastening member 46 and the cable portion extendsthrough the first groove portion 200 of the guide member 40, at leastone of the tensioning members of the fastening member 46, and the secondgroove portion 210 of the guide member 40.

The guide member 40 and the fastening member 46 are sewn or otherwiseattached to either the lateral side panel 28 or the medial side panel 30of the upper 20, or both, as shown in FIGS. 4 and 5, to provideindependent adjustable support in the forefoot region. In someembodiments, such as illustrated in FIGS. 1-5, the shoe 10 has twoclosure systems and the fastening member 46 of the first closure systemand the second closure system may be located on the same lateral sidepanel 28, or on the same medial side panel 30. In additionalembodiments, the fastening member 46 of the first closure system may belocated on the medial side panel 30 and the fastening member 46 of thesecond closure system may be located on the lateral side panel 28, suchthat both systems run in opposing directions.

In the embodiments shown in FIGS. 1-5, the guide members 40 and thefastening members 46 are attached directly to the upper panels 28 and30. The guide members and the fastening members may be attached to theupper panels by stitching, chemical fastening, or any other suitablemethod. In additional embodiments, the guide members and the fasteningmembers are directly injected to the upper.

In other embodiments shown in FIGS. 13-14 and 17-19, the guide members40 and the fastening members 46 are positioned on a flange 48. Theflange portions 48 provide a larger surface area across the foot andassist in more evenly distributing the load carried by the closuresystem 50 about the arch and instep area of the upper 20. The guidemembers and the fastening members may be attached to the flange portions48 by any suitable method, such as stitching or chemical bonding, or maybe formed integrally with the flange portions by, for example, injectionfrom any suitable material, such as a thermoplastic material. Inadditional embodiments, the flange portions 48 are directly injected tothe upper, and the guide members and the fastening members aremechanically fastened to the flange portions.

In additional embodiments, as shown in FIGS. 15-16, an underlay lateralside panel 42 and an underlay medial side panel 44 may be located underthe primary lateral side panel 28 and the primary medial side panel 30respectively in the regions immediately above the midsole 64. The guidemembers 40 and/or the fastening members 46 are attached to underlaypanels 42 and/or 44 by any suitable method described above such thatthey protrude through the upper panels. The primary lateral side panel28 and the primary medial side panel 30 may be air mesh, sandwich mesh,polyester, nylon, polyurethane, embossed or injected or any othersimilar or suitable material. The secondary underlay side panels 42 and44 provide additional support to the guide members 40 and the fasteningmembers 46, and further assist the upper 20 in providing greateradjustability options from the bottom 60 to provide proper tensionacross the throat 34. The underlay side panels 42 and 44 may be madewith non-woven or similar suitable reinforcement material. Additionalfoam, padding material or the like may be located behind the guide andanchor flanges to further distribute load forces and alleviate any highpressure points of contact.

It is also contemplated that anyone of the above or a combination of theabove attachment methods may be incorporated into the footwear upper inaccordance with the present invention.

The closure systems 50 may be independently adjustable across the archand instep in more than one portion that communicates with the bottomand stabilizing member according to the amount of tension a wearerdesires in order to achieve the best possible fit, comfort level andperformance characteristics in relation to a specific gait assessment.The closure systems 50 may include differing cable materials dependingon control desirability. For example, a wearer may prefer an elasticpolyurethane cable in the one system and a less flexible cable in theother of two cable systems. The cable closure system 50 located on theupper 20 works in concert with the stabilizing member 100 and the bottom60 to make for a more customized fit and to allow specific areas of theshoe 10 to perform with a greater or lesser degree of flexibility. Eachclosure system 50 adjusts independently from another and may provide apronator, for example, the ability to add more or less tension in thearch area allowing the stabilizing member 100 to adjust to a betterperforming shape. The outsole 62 and midsole 64 will then adjust theircompression response depending upon the amount of tension placed on theclosure system 50. A more tensioned upper will provide a faster lessflexible response and a less tensioned upper will provide a slower moreflexible response.

Various configurations of the guide members 40 and the fastening members46 may be utilized in accordance with the present invention. Forexample, as shown in FIGS. 15 and 16, the fastening members 46 mayinclude two, three or four tensioning members that receive the cableassembly 90. In the configurations wherein the fastening member 46includes more than two tensioning members, for example, as shown in FIG.15, the tension of the closure system 50 may be adjusted by adjustingthe position of the cable assembly 90 through the tensioning members. Asshown in FIG. 12, a first loop 250 of the cable assembly 90 may bepositioned in the first tensioning member 220 or the second tensioningmember 230, and a second loop 260 of the cable assembly 90 may bepositioned in the second tensioning member 230 or the third tensioningmember 240.

It is noted that more than one groove portions may also be included onthe guide members if desirable to allow for enhanced flexibility andadjustability. It is also contemplated that any possible combination ofthe guide members and the fastening members may be formed as separateparts or in a contiguous structural configuration in accordance with thepresent invention.

In some embodiments, the cable 90 is slideably positioned around theguide members 40 and/or fastening members 46 to provide a dynamic fit inresponse to movement of the foot within the footwear. The cable may beformed from any suitable material, such as, for example, a thermoplasticmaterial, that allows for a degree of stretching as the foot expands andcontracts with exercise.

The three advantageous embodiments of the present invention aredescribed above. The first incorporates the aforementioned advantages toprovide the wearer with a neutral stability shoe. The secondincorporates the aforementioned advantages to provide the wearer with alateral stability shoe. And the third embodiment incorporates theaforementioned advantages to provide the wearer with a medial stabilityshoe. Each configuration is designed to meet the specific demands of awearer's unique physiology as determined by a professional gaitassessment. In operation, the previously described features improvelateral stability, medial stability, and neutral stability, which areimportant to each gait characteristic. Further, the shoe 10 may reduceinjury if properly adjusted. These advantages are achieved by thedifferentiation of design in the medial, lateral, and neutral portionsof the shoe, and the synergistic effects between the cable closuresystem, the stabilizing member, and the bottom arch and postingfeatures.

While the various features of shoe 10 work together to achieve theadvantages previously described, it is recognized that individualfeatures and sub-combinations of these features can also be used toobtain some of the aforementioned advantages without the necessity toadopt all of these features.

It should be understood that the foregoing is illustrative and notlimiting, and that obvious modifications may be made by those skilled inthe art without departing from the spirit of the invention. Although theinvention has been described with reference to embodiments herein, thoseembodiments do not limit the scope of the invention.

What is claimed is:
 1. An adjustable closure system for an article,comprising: a primary exterior having a first side panel, and a secondside panel opposite the first side panel; and a closure systemincluding: a guide member having first and second cable-receivingpassages integrally formed with a flange portion positioned exclusivelyabout the first side panel arranged in a direction away from the secondside panel and configured to effect tightening of the article; afastening member having a plurality of tensioning members integrallyformed with a flange portion positioned exclusively about the secondside panel and configured to effect tightening of the article; whereinthe tensioning members comprise cable-receiving passages arranged in adirection away from the first side panel and configured to guide a pathabout the article having the first side panel, and the second side panelopposite the first side panel so as to maintain a level of tightness ofthe article; a cable having a first portion routed along the guidemember first cable-receiving passage on the first side panel, thetensioning member first cable-receiving passage of the fastening memberon the second side panel opposite the first side panel, and the guidemember second cable-receiving passage about a first path along thearticle via the guide member first and second cable-receiving passagesand the tensioning member first cable-receiving passage on the secondside panel opposite the first side panel, and a second portion routedalong the tensioning member second cable-receiving passage of thefastening member on the second side panel opposite the first side panelabout a second path along the article via the tensioning member secondcable-receiving passage; wherein the cable first portion and the cablesecond portion are configured to fasten the cable to the fasteningmember to effect tightening across the entire article.
 2. The adjustableclosure system of claim 1, wherein a gripping member is secured to thecable to facilitate adjustment of the closure system by a user.
 3. Theadjustable closure system of claim 1, wherein the cable comprises aclosed-loop cable selected from among a plurality of removable andinterchangeable closed-loop cables of differing cable lengths.
 4. Theadjustable closure system of claim 1, wherein the cable is snap-fit intothe guide members and the fastening member.
 5. The adjustable closuresystem of claim 1, wherein the cable is slidable through at least one ofthe guide member and the tensioning member.
 6. The adjustable closuresystem of claim 1, wherein at least two tensioning members are arrangedopposite the guide members on an opposite side panel.
 7. An adjustableclosure system for an article, comprising: a primary exterior having afirst side panel, and a second side panel opposite the first side panel;a first side panel underlay, and a second side panel underlay arrangedunder the primary exterior first side panel and the primary exteriorsecond side panel opposite the primary exterior first side panel,respectively; and a closure system including: a guide member havingfirst and second cable-receiving passages integrally formed with aflange portion positioned exclusively about the first side panelarranged in a direction away from the second side panel and configuredto effect tightening of the article; a fastening member having aplurality of tensioning members integrally formed with a flange portionpositioned exclusively about the second side panel and configured toeffect tightening of the article; wherein the tensioning memberscomprise cable-receiving passages arranged in a direction away from thefirst side panel and configured to guide a path about the article havingthe first side panel, and the second side panel opposite the first sidepanel so as to maintain a level of tightness of the article; a cablehaving a first portion routed along the guide member firstcable-receiving passage on the first side panel, the tensioning memberfirst cable-receiving passage of the fastening member on the second sidepanel opposite the first side panel, and the guide member secondcable-receiving passage about a first path along the article via theguide member first and second cable-receiving passages and thetensioning member first cable-receiving passage on the second side panelopposite the first side panel, and a second portion routed along thetensioning member second cable-receiving passage of the fastening memberon the second side panel opposite the first side panel about a secondpath along the article via the tensioning member second cable-receivingpassage; wherein the cable first portion and the cable second portionare configured to fasten the cable to the fastening member to effecttightening across the entire article; wherein the guide members and thetensioning members are positioned between the side panel underlays andthe primary exterior side panels such that the guide members and thetension members protrude through the primary exterior side panels andare arranged about the article configured to guide the cable along apath about the article to effect tightening across the entire article.8. The adjustable closure system of claim 7, wherein at least twotensioning members are arranged opposite the guide members on anopposite side panel.
 9. The adjustable closure system of claim 7,wherein a gripping member is secured to the cable to facilitateadjustment of the closure system by the user.
 10. The adjustable closuresystem of claim 7, wherein the cable comprises a closed-loop cableselected from among a plurality of removable and interchangeableclosed-loop cables of differing cable lengths.
 11. The adjustableclosure system of claim 7, wherein the cable is snap-fit into the guidemembers and the fastening member.
 12. The adjustable closure system ofclaim 7, wherein the cable is slidable through at least one of the guidemember and the fastening member.
 13. An adjustable closure system for anarticle, comprising: a primary exterior having a first side panel, and asecond side panel opposite the first side panel; and a plurality ofclosure systems including; a first set of guide members, tensionmembers, a fastening member and a cable configured to effect tighteningof the article across the entire closure system in a first zone of thearticle; and a second set of guide members, tension members, a fasteningmember and a cable configured to effect tightening of the article acrossthe entire closure system in a second zone of the article; wherein eachof the guide members and the tension members of the first and the secondsets includes a cable-receiving passage configured to effect tighteningof the article in the first zone and the second zone of the article,respectively; a guide member having first and second cable-receivingpassages integrally formed with a flange portion positioned exclusivelyabout the first side panel arranged in a direction away from the secondside panel and configured to effect tightening of the article in thefirst zone and the second zone of the article; a fastening member havinga plurality of tensioning members integrally formed with a flangeportion positioned exclusively about the second side panel andconfigured to effect tightening of the article; wherein the tensioningmembers comprise cable-receiving passages arranged in a direction awayfrom the first side panel and configured to guide a path about thearticle having the first side panel, and the second side panel oppositethe first side panel so as to maintain a level of tightness of thearticle in the first zone and the second zone of the article; a cablehaving a first portion routed along the guide member firstcable-receiving passage on the first side panel, the tensioning memberfirst cable-receiving passage of the fastening member on the second sidepanel opposite the first side panel, and the guide member secondcable-receiving passage about a first path along the article via theguide member first and second cable-receiving passages and thetensioning member first cable-receiving passage on the second side panelopposite the first side panel, and a second portion routed along thetensioning member second cable-receiving passage of the fastening memberon the second side panel opposite the first side panel about a secondpath along the article via the tensioning member second cable-receivingpassage; wherein the cable first portion and the cable second portionare configured to fasten the cable to the fastening member to effecttightening across the entire article in each of the closure systems inthe first zone and the second zone of the article respectively; whereinthe first closure system in the first zone of the article and the secondclosure system in the second zone of the article are adapted toindependently effect tightening across the article; wherein the firstclosure system and the second closure system are each arranged in thefirst and the second zones, respectively, in a symmetric configurationfrom the first side panel to the second side panel opposite the firstside panel.
 14. The adjustable closure system of claim 13, wherein agripping member is secured to the cable to facilitate adjustment of theclosure system by the user.
 15. The adjustable closure system of claim13, wherein the cable comprises a closed-loop cable selected from amonga plurality of removable and interchangeable closed-loop cables ofdiffering cable lengths.
 16. The adjustable closure system of claim 13,wherein the cable is snap-fit into the guide members and the tensioningmembers.
 17. The adjustable closure system of claim 13, wherein thecable is slidable through at least one of the guide member and thetensioning member.
 18. The adjustable closure system of claim 13,wherein the first closure system in the first zone and the secondclosure system in the second zone are arranged in opposing asymmetricaldirections on opposite side panels.
 19. The adjustable closure system ofclaim 13, wherein the cable in the first zone and the cable in thesecond zone may be formed of a variety of suitable material that may beof differing length, strength, elasticity, and diameter and may befreely substituted between cable assemblies in order to meet thespecific demands of the user.
 20. The adjustable closure system of claim13, wherein at least two tensioning members are arranged opposite theguide members on an opposite side panel.